A DEWATERING SYSTEM STUDY WITH A NUMERICAL SOLUTION

Authors

  • Najla F. Al-Baejah Department of Civil and Architecture Technology-The High institute for engineering Professions Majori Benghazi- Libya Author
  • Aisha l Alzayani Department of Modern Architecture Technology -Higher Institute of Engineering Techniques- Benghazi- Libya Author

DOI:

https://doi.org/10.58916/jhas.v9i2.282

Keywords:

Dewatering, groundwater, wells, well points

Abstract

Groundwater level management and control is a multidisciplinary process that calls for the collaboration of several experts in geotechnical engineering, hydrogeology, hydrology, geochemistry, hydrochemistry, etc.

 It is quite likely that some form of groundwater management is necessary for any new civil engineering project that involves building at altitudes below the water table. During excavation, a number of tried-and-true methods have been devised to decrease the groundwater table. The most often used techniques for dewatering include wells, sumps, and well points.

Controlling the surface and subsurface hydrologic environment to enable "in the dry" building of the structure is the aim of construction dewatering. The majority of the analytical techniques for groundwater flow described in this handbook are for "steady-state" flow, not "unsteady-state" flow, which happens during the first stages of dewatering.

By hydrostatic pressure and seepage, uncontrolled or incorrectly managed groundwater can induce heave, leakage, or decrease the stability of excavation slopes or foundation soils to the point that they are unfit for sustaining the structure.

The methods used to address the resulting issues rely on a number of variables, including the size of the excavation, the type of soil, and the needs for groundwater control.

Even the most basic dewatering procedures are performed without any thought beforehand. Advanced engineering and construction techniques are necessary for large-scale operations in challenging environments.
The following categories best describe the primary goals of this paper:

  1. a) Analyze groundwater flow via porous media using numerical techniques (finite difference method);
  2. b) Present the theoretical findings of simulations of groundwater flow in the suggested research aquifer.
    c) Calculate the discharge, the number of well locations, and the distance between each well.

Downloads

Download data is not yet available.

References

Hack Barth, D. A, “Application of the drill - stem test to hydrology Ground water”, vol. 15, no. 15, pp.5-11 (1978).

Johnson Drillers Journal, “Deep wells for dewatering offer real advantages”, part I: UOP Johnson, January –February, pp. 1-11 (1977).

Mount, J. R, “Application of computer in design and operation of dewatering project”: presented at the annual meeting of the Association of Engineering Geologists (1968)

Universal Oil Products Johnson,” Ground water and wells” Saint Paul, Edward E. Johnson Inc., p.107 (1972).

Powers, J.P., “Construction dewatering: new method and applications” 2nd edition Wiley & Sons, Inc., New York, (1992).

U.S Army,” Dewatering and Groundwater Control” TM5-818-5, (2004)

Youssef, A. A., “Report for Lowering the Groundwater Table at Sidi-Krir”, Egypt (2006)

Published

2024-06-25

How to Cite

Najla F. Al-Baejah, & Aisha l Alzayani. (2024). A DEWATERING SYSTEM STUDY WITH A NUMERICAL SOLUTION. Bani Waleed University Journal of Humanities and Applied Sciences, 9(2), 559-569. https://doi.org/10.58916/jhas.v9i2.282

Most read articles by the same author(s)

<< < 10 11 12 13 14 15 16 17 18 19 > >> 

Similar Articles

You may also start an advanced similarity search for this article.